Macrophage Biocompatibility of CoCr Wear Particles Produced under Polarization in Hyaluronic Acid Aqueous Solution

Twenty-three patients were operated upon for thoracic disc herniation between 1973 and 1982. The lateral approach to the vertebral column was used in each. Most patients had severe local pain; 13 had severe myelopathy or complete motor paralysis, including 4 who had become paraplegic after laminectomy. Eleven patients had calcified discs or osteophytic ridges. Air myelography and computed tomography were diagnostic in all cases. Postoperatively, 17 patients achieved significant relief of pain, 20 improved neurologically, and none became worse. Complications of the operation were minimal. The lateral extracavitary approach to the spine is a valuable technique for the management of thoracic disc herniation.

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Lateral extracavitary approach to traumatic lesions of the thoracic and lumbar spine

Larson¹,

Holst²,

Hemmy³

et al. 1976

288

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The lateral extracavitary approach to the spine was used for resection of displaced bpne and disc located anterior to the dura in 62 patients with traumatic lesions of the thoracic and lumbar spine. Fifty-two patients had closed vertebral fractures and 10 had gunshot wounds. The spinal cord was involved in 44 patients, and the cauda equina in 18. A spinal subarachnoid block was demonstrated in 17 of 57 preoperative gas myelograms. Evoked potential recordings, although related to preception of joint rotation, tended to reflect the overall neurological condition and had some prognostic value. Significant improvement followed surgery in 46 patients with incomplete neurological lesions, and one was transiently worse. Before operation 18 patients were able to walk; nine with assistance and nine without. After operation 47 patients were able to walk; 12 with assistance and 35 without. Adequate bladder function was present in 17 patients before surgery, and in 44 after surgery. A laminectomy had been done previously in 16 patients, 11 of whom improved significantly after anterior resection. Spine fusions were required in 26 patients, five of whom had a prior laminectomy. The major factor in the pathogenesis of the incomplete neurological deficit appeared to be distortion of the cord and roots by displaced bone and disc. Consequently, the primary object of treatment was the restoration and maintenance of normal anatomical relationships between the spinal cord or cauda equina and the spinal canal.

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Dynamic Response of Human Cervical Spine Ligaments

Yoganandan¹,

Pintar²,

Butler³

et al. 1989

Spine

129

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Finite element modeling of the C4–C6 cervical spine unit

Yoganandan

Kumaresan

Voo

et al. 1996

Medical Engineering & Physics

113

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Surgical management of nontuberculous thoracic and lumbar vertebral osteomyelitis: Report of 33 cases

Arnold¹,

Baek²,

Bernardi³

et al. 1997

Surgical Neurology

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Neurophysiological effects of dorsal column stimulation in man and monkey

Larson¹,

Sances²,

Riegel³

et al. 1974

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✓ In 18 patients with cancer and intractable pain, capacitatively coupled pulses of 0.25 msec duration were delivered transcutaneously at 100 Hz to sets of five in-line electrodes implanted subdurally over the dorsal columns. Averaged somatosensory-evoked potentials were recorded from scalp electrodes before, during, and after application of current. All but one patient experienced relief of pain during stimulation, persisting for as long as several hours afterward. Eleven patients developed hyperactive deep reflexes, pathological reflexes, and decreased perception of joint rotation, pain, and touch below the level of current application. Somatosensory-evoked potential amplitudes were markedly reduced. All neurological findings returned to control values within 1 hour after each of repeated applications of current. Histological examination of spinal cord sections from four cancer patients showed no changes secondary to long-term current application. Similar currents were applied to the spinal cord of 15 monkeys with chronically implanted bipolar recording or stimulating electrodes over the lower, middle, and upper thoracic cord, in nucleus ventralis posterior lateralis (VPL), and over the sensory motor cortex (SMC). With application of current, the responses in VPL and SMC to peripheral stimulation were abolished. Evoked potential responses were abolished between bipolar stimulating electrodes and bipolar recording electrodes separated by the five in-line electrodes used to supply the 100 Hz current. However, when both stimulating and recording electrodes were either above or below the five in-line electrode set, evoked responses were unaffected. The findings indicate that applied currents blocked neuronal transmission by producing local changes in the cord. The prolonged alteration of cerebral evoked potentials and relief of pain, however, could also be related to involvement of supraspinal neurons.

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Experimental Spinal Injuries with Vertical Impact

Yoganandan

Sances

Maiman

et al. 1986

Spine

115

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Sanford J. Larson

Dynamic Anatomy of the Ulnar Nerve at the Elbow

Lateral Extracavitary Approach to the Spine for Thoracic Disc Herniation: Report of 23 Cases

Lateral extracavitary approach to traumatic lesions of the thoracic and lumbar spine

Dynamic Response of Human Cervical Spine Ligaments

Finite element modeling of the C4–C6 cervical spine unit

Surgical management of nontuberculous thoracic and lumbar vertebral osteomyelitis: Report of 33 cases

Neurophysiological effects of dorsal column stimulation in man and monkey

Experimental Spinal Injuries with Vertical Impact

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